Simple harmonic motion lab conclusion

• [DOC File]1

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  Simple Harmonic motion. Lab: Simple Harmonic Motion (Vernier: Physics with Computers) Goal: Students will examine the parameters of simple harmonic motion using a spring and weight system. Time: 90 minute block. Wave motion in 1-d. Lab: Waves in 1-d (slinky/snakey lab)

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• [DOC File]Physics 127L Experiment 127:60

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  In this experiment the behavior of simple oscillating systems will be studied and compared with the behavior expected for simple harmonic motion (SHM). When a body is subjected to a linear restoring force (for example, F = -kx, for a mass attached to a spring of force constant k), the acceleration is proportional to the displacement and is in ...

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• [DOC File]Hooke's Law and Simple Harmonic Motion

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  A special form of periodic motion is called Simple Harmonic Motion (SHM). Simple Harmonic Motion is defined as oscillatory motion in which the resultant force on the oscillating body at any instant is directly proportional to its displacement from the rest position and opposite in direction to its motion. ... In this lab we will study Hooke’s ...

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• [DOC File]“Hooke’s Law and Simple Harmonic Motion”

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  “Hooke’s Law and Simple Harmonic Motion” ... Conclusion. During part one of the experiment, the vertical displacement of a spring was measured as a function of force applied to it. The starting position of the spring was recorded using a stretch indicator. Mass was …

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• [DOC File]Project1: Automation using Light Sensors

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  Introduction. Simple harmonic motion refers to a body oscillating periodically about an equilibrium position. Familiar examples of such oscillations are a block attached to a spring, the swinging of a child on a playground swing, the motion of a pendulum, and the loudspeaker in a radio.

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• [DOC File]THE SIMPLE PENDULUM

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  The motion can be approximated as a simple harmonic motion if the pendulum swings through a small angle (so sin (ө) can be approximated as ө). The frequency and period for the simple pendulum are the independent of the initial angle of the movement (initial position of the mass to the vertical reference line).

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• [DOC File]Simple Harmonic Motion

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  Compare the observed motion of a mass and spring system to a mathematical model of simple harmonic motion. Determine the amplitude, period, and phase constant of the observed simple harmonic motion. Materials. Power Macintosh or Windows PC Logger Pro Universal Lab Interface . Vernier Motion Detector

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• [DOC File]Period of a Pendulum Lab Write Up (35 pts)

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  Period of a Pendulum Lab Write Up (37 pts) Your lab report must include. Abstract (2pts): A brief summary of the purpose, procedure, and results. Purpose (1 pt) of the lab . Theory (3 pts): Describe simple harmonic motion in your own words.

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• [DOC File]4A Hooke's Law - St. John's University

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  Simple Harmonic Motion (SHM) If a spring with a weight hanging on it is given an additional displacement of magnitude . a (Fig. 2) and released, it will undergo Simple Harmonic Motion. In simple harmonic motion a spring. will oscillate up and down with an amplitude . a. and a period T. The minus sign in Hooke’s Law tells us why this happens.

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• [DOC File]Simple Harmonic Motion Lab

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  Conclusion: How close did you get to the actual mass? Why is the value of k important when designing the springs used in your car? Can the springs in a car be used in a large truck? Explain. What was Robert Hooke’s contribution to the study of simple harmonic motion? Part 3: Period of SHM (Pendulum) Materials: String, weight, stop watch

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